You can request a demo version of librraew in order to test the auto-white balance and auto-exposure algorithms to see if the technology meets your needs. This library will allow you to use all the features that comes with the full version of the librraew but with the following limitations:

+

You can request a demo version of librraew in order to test the auto-white balance and auto-exposure algorithms to see if the technology meets your needs. This library will allow you to use all the features that comes with the full version of the librraew but with the following limitations:

−

* The algorithm will darken the image periodically.

+

*The algorithm will darken the image periodically.

−

* After awhile the algorithm will stop working and the image capturing will be done with the last values calculated by the library. In order to test the library again you will need to restart the algorithm.

+

*After awhile the algorithm will stop working and the image capturing will be done with the last values calculated by the library. In order to test the library again you will need to restart the algorithm.

Some camera sensors don't include auto white balance and/or auto exposure processing, so RidgeRun offers a library with AE and AWB algorithms called librraew. This library was initially developed for the DM365/DM368 (DM36x) platform. The DM36x video processing front end (VPFE) has an H3A engine designed to support control loops for auto focus, auto white balance and auto exposure by collecting statistics about the imaging/video data. There are two blocks in this module:

Auto focus engine

Auto exposure and auto white balance engine

The librraew library only uses the auto exposure and auto white balance hardware engine. The DM36x does not allow the H3A engine to be used when the color space is YCbCr, which is common if you are using NTSC/PAL composite video input.

The H3A engine divides the frames into two dimensional blocks of pixels referred as windows. The engine provides image/video metrics:

Accumulation of clipped pixels along with all non-saturated pixels in each window on a per color basis.

Accumulation of the sum of squared pixels per color.

Minimum and maximum pixels values in each window on a per color basis.

The DM36x H3A engine can be configured to use up to 36 horizontal windows with sum + {sum of squares or min+max} output or up to 56 horizontal windows with sum output. The H3A engine can also be configure to use up to 128 vertical windows. The width and height for the windows is programmable.

The librraew library was tested using an Aptina MT9P031 CMOS sensor. Support for other sensors was added later, thus validating the librraew design. If you provide the appropriate sensor-specific functions for the library, it can work with any sensor. The implementation is a plain C library and can be re-used with and integrated with any application capable of making C function calls. Image Pipe Daemon uses librraew to provide auto exposure/Auto white balance.

Distribution License

Subject to the terms and conditions of RidgeRun's SDK license, RidgeRun hereby grants to customer a non-exclusive, non-transferable, non-sublicensable, limited, worldwide license to distribute RidgeRun Software in object code format only (no source code) in one product model sold by the customer.

Limitations

There are some not-so-obvious limitations when using the H3A engine:

AWB/AE correction limited to window sampling method listed above.

Can not use H3A engine with YCbCr color space, which includes NTSC/PAL composite video input.

Auto exposure can affect the video frame rate with dark images. Set a maximum exposure limit to keep the frame rate from dropping below an acceptable value.

Only tested with Linux 2.6.32 and the RidgeRun MT9P031 V4L2 driver.

Algorithms

Auto white balance

When an image of a scene is captured by a digital camera sensor, the sensor response at each pixel depends on the scene illumination. Depending of the illumination, a distinct color cast appears over the captured scene. This effect appears in the captured image due to the color temperature of the light. If a white object is illuminated with a low color temperature light source, the object in the captured image will have a reddish tint. Similarly, when the white object is illuminated with a high color temperature light source, the object in the captured image will appear somewhat blue instead of pure white. The human eye compensates for color cast automatically through a characteristic known as color constancy, allowing the colors to be independent of the illumination. Auto white balance tries to simulate the color constancy for captured images.

Many auto white balance algorithms follow a two-stage process:

Illumination estimation: this can be done explicitly by choosing from a known set of possible illuminations or implicitly with assumptions about the effect of such illuminations. The algorithms implemented in librraew use implicit estimation.

Image color correction: this is achieved through an independent gain adjustment of the three color signals. Commonly only the blue and red gains are adjusted assuming the red gain is fixed.

Auto exposure

One of the main problems affecting image quality, leading to disappointing pictures, comes from improper light exposure. The image exposure is the amount of light that reaches the sensor. Exposure determines the lightness or darkness of the resulting image. If too much light strikes the image sensor, the image will be overexposed, washed out, and faded. If too little light reaches the camera sensor produces an underexposed image, dark and lacking in details especially in shadow areas. Auto exposure (AE) algorithms adjust the captured image in an attempt to reproduce the most important regions (according to contextual or perceptive criteria) with an average level of brightness, more or less in the middle of the possible range.

Auto exposure algorithms involves three processes:

Light metering: this is generally accomplished using the camera sensor itself or an external device as exposure detector.

Scene analysis: brightness metering methods use an estimation of the scene illumination according to image metrics. Using the oerall illumination value, brightness adjustments can be calculated to produce the best exposure.

Image brightness correction: this ensures that the correct amount of light reaches the image sensor by adjusting the illumination and shutter time parameters. The image sensor parameter is often called the exposure time. The exposure time is defined as the amount of time that the sensor integrates light. In other words, it determines how long the sensor photo diodes array is exposed to light.

Documentation

Using the demo version of librraew

You can request a demo version of librraew in order to test the auto-white balance and auto-exposure algorithms to see if the technology meets your needs. This library will allow you to use all the features that comes with the full version of the librraew but with the following limitations:

The algorithm will darken the image periodically.

After awhile the algorithm will stop working and the image capturing will be done with the last values calculated by the library. In order to test the library again you will need to restart the algorithm.